Tire puncture repair overview while traveling and attending the SEMA Show in Las Vegas, Nevada.
I carry the tools, know how, and plugged the tire after the show in the convention center parking lot before a dinner meeting on Wednesday evening. Thanks to Extreme Outback Products (Ultimate Puncture Repair Kit and ExtremeAire Magnum 12V Portable Compressor), Wagan Tech (Brite-Nite Wayfinder LED Light), and Hallmark Campers (bright, side eyebrow lights), and the mild weather for making it an easy job.
Initially I thought the puncture was a rock from the rough road I traveled to my camp between days of the show. However, it was an inch-long, 1/4″ bolt that I probably picked up on Highway 95 heading to camp after the first day of the SEMA Show. I don’t blame Cooper Tires for the puncture. Some tires are more rugged than others, but road hazards are real, and all tires are just balloons that can be punctured.
James Langan
Copyright James Langan/RoadTraveler. All Rights Reserved
Cooper Discover HT3, LT 235/75R15 For A Vintage Travel Trailer
Automotive tire tread-separation failures are presumably at record historical lows due to the quality of modern tires, and the advent tire pressure monitoring systems (TPMS). I’m not a fan of how TPMS systems have been implemented on late-model heavy-duty Ram 2500 trucks—which require 60 psi in front and 80 psi in the rear to avoid a dash-light and flashing EVIC display—yet having psi information available while driving is a huge safety feature. The TPMS amber warning light helps alert the average, possibly inattentive driver that they have a tire that has dropped below the psi specified by a manufacturer. Like them or not, TPMS are surely here to stay, however there is no legal requirement to monitor pressure on trailers.
Trailer tires are probably ignored more than those on cars and light-trucks, and that’s saying something because many drivers give their automotive tires zero attention or maintenance until there is an obvious problem. I can only offer anecdotal evidence, but I observe far more trailers on highway shoulders with obvious rubber failures than tow-vehicles. A quick search for factual data about these trailer failures didn’t produce scientific charts I could quote, though there were plenty of links to articles and posts about trailer tire failures and how to avoid them. There was a common thread among them, which helps corroborate my experience and traditional advice: buy enough tire and don’t exceed the rated capacity.
Many trailers are used infrequently, whether RVs, utility trailers, or seasonal boat trailers, and it appears many owners fail to ensure tires are appropriately inflated and ready to travel. If pressures are not checked and adjusted to proper levels before a trip, particularly during the hotter months, tires can be easily overloaded; this will cause overheating, which can lead to separation failures. Trailer tires are also often left to rot in the sun, which contributes to aging before they see many miles.
Needed RV Tires
Our vintage 1978 Avion travel trailer has served us well for the past 24 years and has consumed several sets of rubber. In addition to the miles traveled, bias-ply tires and the independent suspension have sometimes contributed to rapid wear. The Avion’s Adjust-A-Ride suspension helps the trailer ride and tow well, but there is limited adjustment available to insure perfect wheel alignment.
Like Ford’s Twin I-Beam and Twin Traction Beam (TTB) suspensions on older F-Series trucks, camber changes caused by varying loads and/or suspension cycling is less than ideal for wear. Many new trailers use radials; however, bias-ply tires are still around and often wear less evenly and much more quickly than radials.
More recent sets have been radials, but cheap, offshore-made, and from a wrong-side-of-the-tracks store; often you get what you pay for. They worked, but I also didn’t drag the trailer beyond the state line for a few years, and I was less concerned about failures. I had an important trip planned to Idaho, Colorado, and back to Nevada to have my 2017 Ram’s (aka Oscar the Pack Mule) Hillsboro aluminum flatbed installed and to help design the new Hallmark flatbed camper, so I wanted to mount something better. That prompted the question, what are the best trailer tires for my application?
Special Trailer, P-metric, And Light Truck
Special Trailer (ST) tires are designed to be used on trailers, and they are not safe or legal for passenger vehicles. They are original equipment on many new trailers and are often the default choice for most at replacement time. P-metric, passenger car tires, are not specifically designed to be used on trailers, but they can be. However, their maximum load capacity must be reduced by nine-percent.
The speed rating for most ST rubber is 65 mph, though some now have higher ratings, and I purchased a set from Discount Tire a couple years ago that were capable of faster speeds. There are many states with higher speed limits without additional restrictions for trailers. Some drivers and tow-vehicles have no problem driving faster than 65 mph, but the treads need to be designed for that duty to be safe.
There is a sometimes-overlooked third option, Light Truck (LT) tires. Unlike P-metric sizes, LT tires can be loaded to their rated capacity for trailer applications. If you have any doubts about this, read it for yourself on a respected authority’s website: https://www.tirerack.com/tires/tiretech/techpage.jsp?techid=219
Considering LT tires not only expands the sizes that might fit a chassis, but light truck rubber can provide an additional benefit rarely seen on P-metric or ST equivalents: more tread depth. Just like it does on trucks, deeper tread helps us get more miles out of a set and can also disperse more water, snow, and other debris. Using LT tires on trailers is not revolutionary; there are a few manufacturers that put them on new units. Many RV owners unhappy with the limitations or poor quality of some ST tires have chosen to move to LT designs.
Some folks dutifully repeat hearsay that ST rubber is the only choice for trailers, primarily having P-metric in mind as the sole alternative. Instead of ST, maybe LT designs should be our go-to choice? I read a compelling argument by an RV tire expert who explained some of the ST tire shortcomings. He asked, “How is it that ST tires are rated to carry more weight than LT tires of the same size?” He explained that the loading formula for ST rubber is based on old alpha sizes, a maximum speed of 65 mph, and a shorter life expectancy. That explains a lot and doesn’t sound like a great compromise. Special Trailer tires are rated higher than comparable light truck versions partially because rapid wear (and possibly early failure) is acceptable. There are always opposing views, and I found another RV expert who acknowledged the checkered past and design limitations of ST rubber, but he still prefers them.
Outdated Size
The original size tires for our 40-year-old Avion trailer were 7.00-15 LT-D, which were about 29.5-inches tall. Note that this is an LT size, not an ST size, and could support 1,970-pounds each. (Modern ST versions of this exact size are rated for 2,040-pounds at 60 psi, about 70-pounds more per tire than the originals.)
Back in 1994 when we bought the Avion, the 7.00-15LT bias-ply size was still readily available. They can still be sourced but are rarely in-stock, and brand and tread choices are few. The common replacement is an ST225/75R15 radial, and a few sets of these have been run on the original Avion aluminum wheels, including load-range-C versions that had just enough load capacity.
The 225/75R15 is about one-inch shorter than the OE size, which effectively lowers the trailer about one-half inch. Some would consider a lower chassis beneficial, and generally it has been fine. However, this Avion was already pretty low, and when driving on dirt roads to deer-hunting base camps in Nevada’s Outback, lower has not been better. So I carefully researched sizes, specs, and measured the available clearance inside the Avion’s wheel wells, before jumping up to a bigger LT size.
Cooper Discoverer HT3
The LT235/75R15 size is small by modern pickup standards, but they are still made and available from full-line manufacturers. The overall diameter is similar, though slightly wider and taller than the original 7.00-15LT. The exact dimensions of a tire in any given size will vary between manufacturers, and with the limited clearance on the trailer, I was concerned about possible rubbing. I measured carefully, studied the suspension and fender wells, and convinced myself that Cooper Tire’s LT235/75R15C probably would not rub ($130 each).
The original 7.00-15 were load-range-D, and most 235/75R15LT are load-range-C. However, as I detailed in another tire article, it is time to starting using a tire’s load index and the actual capacity, instead of load range or ply rating. What does the sidewall say? The load-range-D, 7.00-15LT treads were rated for 1,970-pounds at 60 psi. These load-range-C Cooper Discoverers in LT235/75R15 have a capacity of 1,985-pounds at 50 psi. Tread depth is a whopping 14/32”, not quite double the 8/32” on a typical ST. It should be easy to get thousands more miles out of these Coopers. Pay a little more to get more performance, wear, and safety? You bet!
The HT3s were mounted on the OE aluminum wheels, static/single plane balanced, and test fit to the Avion. The Cooper Discoverers appeared to have adequate clearance, but I went to a nearby high school parking lot after hours to articulate the axles on some large, teenager-inspired speed bumps, while inspecting for possible rubbing. With an HT3 stuffed into the fender well, clearance between the outer shoulder and the inner fender was tight, about 1/2″, but they did clear.
2,200 Mile Road Test
The real test was heading out across the Western United States, over fast rural highways and freeways. Leaving Western Nevada, I drove almost 500 miles to have the Pack Mule’s flatbed installed in Idaho, then another 700 miles to Fort Lupton, Colorado, to Hallmark Campers. The most direct route home was an additional 1,000 miles.
The Avion dutifully followed behind the regular cab flawlessly, at any legal speed, which is 80 mph on some sections of rural Interstate 80 in Wyoming, Utah, and Nevada. These HT3 have an N-speed-rating, 106 mph, of course that’s a bit fast, and most towing was between 65 and 75 mph.
The Discoverers never felt hot to the touch, barely warm, and did not appear to wear during the trip, as they still measured a full 14/32″ upon returning home. This contrasts with the short life I’ve experienced from bias-ply tries on the same chassis, which sometimes have been consumed after just a few thousand miles. I am extremely happy that I chose the Cooper Discoverer HT3 specifically, and a high-quality LT tire in general.
Tell ‘em you saw it on RoadTraveler.net.
James Langan
Copyright James Langan/RoadTraveler. All Rights Reserved
Our 2005 Lexus RX 330 was one of the cleanest and best maintained used vehicles we ever purchased. For the first 11 years of life it logged just 52,000 miles, and it was religiously dealer-maintained.
Still, it needed a few things, new brakes were one and new rubber another. The tires had more than legal tread—though that’s not saying much, as legal is only 2/32” most places during the dry months—but certainly not as deep as we prefer for all-weather traction. Tires are expensive, so we postponed getting replacements for over a year. We stretched the worn Michelins through the first winter, but before Jack Frost arrived again we wanted new rubber on the car.
Waiting was good, because at the 2017 SEMA Show, Cooper Tires announced 30 new sizes in their Discoverer SRX SUV/CUV line, originally introduced in 2014. One of the new sizes was exactly what we needed for the RX 330, a 235/55R18.
Discoverer SRX
The Discoverer SRX is an all-season design that blends innovative technology with advanced engineering to deliver long tread life, a quiet and excellent ride, with improved efficiency for a wide range of applications. Our size has a 65,000-mile treadwear warranty. Key features include:
•3D Micro-Gauge™ sipes maximize tread contact with the road surface to
grip the road better
•Optimized five-rib tread pattern evenly distributes the load across the tire’s
contact patch leading to improved treadwear, responsiveness and handling
•Traction grooves facilitate the expulsion of water away from the tread surface
effectively reducing the potential of hydroplane while increasing grip
•Winter edge feature creates a higher snow-grip area in the tread to provide
better traction
•Stabiledge™ helps stabilize the tread elements during driving conditions,
enhancing steering precision
•Wear Square™ treadlife indicator gives consumers a convenient way to gauge
the amount of wear on the tread of the tire, showing when it is time for replacements
Drivability Backgrounder
Our Lexus RX 330 was a replacement for my wife’s 2013 Volkswagen Jetta Sportwagen TDI with a 6-speed manual transmission. Unfortunately, the TDI was bought-back by Volkswagen as part of their diesel-emission-cheating debacle. The little diesel VW was fun to drive and very economical. The RX is a nice, luxurious SUV, but does not drive or perform like the TDI, and fun is not an accurate descriptor. The Lexus has a soft, marshmallow-like suspension compared to other vehicles we have owned. It is neither a modern sedan nor heavy-duty truck, but the masses must love them as we see them everywhere. My wife says it is her soccer-mom or grandma car. We like the RX 330 fine; it’s just a very different ride for us.
Acknowledging and understanding how different the VW and Lexus platforms are, we both still thought that the RX drove poorly compared to the TDI. The alignment was checked by a trusted, journeyman expert. All was well. If anything needed attention in the near future it would likely be the independent-rear-suspension (IRS), where the camber was just within specification. The front was fine, and there was no need for adjustment. However, the Lexus had a distinct tendency to drift right or left, often requiring constant steering input to keep the car tracking forward, even on relatively straight and level roads.
Cooper Tires Fix A Problem
My extensive experience with light-truck rubber has shown that changing treads sometimes involves compromises. Some designs have a tendency to pull one direction or another on some chassis, or exhibit other unpleasant traits, and mechanical adjustments may be needed to return drivability to acceptable levels. It’s almost impossible to know how a particular pattern will work on a vehicle until you try them. Boy were we in for a surprise….
Mounting the Cooper Discover SRX to the Lexus produced no drivability quirks. Quite the opposite, the Cooper Tires were a dramatic improvement. The Discoverer SRX made the RX 330 drive much better, the wandering was gone, and constant correction was no longer necessary to go straight. The old, worn rubber was the problem. Our little SUV had been transformed!
After returning from my test drive I downplayed the improvement to my wife, simply telling her the new tires were “fine,” not wanting to color her first impression when she drove her car. After her first-drive on the SRX Coopers, she was also extremely impressed, telling me that her little wagon drove much better. It actually made her like the car more.
Great All-Around Design
The SRX were mounted in late November 2017. Our winter was moderate in the Northern Sierra Nevada, but there was plenty of on-highway snow, ice, rain, and grit. After every slippery commute I solicited comments from my wife. She’d enthusiastically reply with how much safer and better her all-wheel-drive SUV drove, and didn’t slip, with the Cooper Discoverer SRX tires. The tread design and siping works. Our only minor critique is that the SRX sometimes follow rain grooves on concrete freeways. This is not unusual for a ribbed all-season. It has more to do with the roadway than the tires.
It’s important to have a good, matching spare, particularly for an all-wheel-drive vehicle. The original, 10-year-old spare was still tucked under the Lexus, so a fifth, matching SRX filled that need. Sticking with the stock, 235/55R18 size meant there were no challenges fitting the spare, the speedometer remained accurate, and the traction control and ABS systems remained happy.
Wear Data
The SRX are wearing evenly and similarly on both the front and rear axles. They received their first rotation slightly late, after 6,700 miles had been covered.
As this is written, we’ve logged 8,800 miles over 10 months, with the tread measuring about 9/32”, down from the original depth of 11/32”, for an impressive 4,400 miles per 1/32” of rubber.
As autumn and winter weather approach, we have the utmost confidence that these Cooper Discoverer SRX tires will take us anywhere we want to drive the little crossover SUV.
Gorilla Automotive Wheel Nuts and Locks
This car had factory Lexus/Toyota wheel locks. Sufficient, but not the brand or style that I prefer because the key-to-lock engagement is shallow.
For several years I have been using Gorilla Automotive locks on all my four-wheel-drives, so I inquired what might be available to fit the factory wheels. The standard, light truck wheel nuts and locks fit the original aluminum wheels perfectly, and were pretty much the only choice. That’s what I ordered. There was an optional bonus I was surprised and happy to learn.
It was possible to order the wheel locks to accept the same key I was already using on my two late-model Dodge Ram 2500 pickups. Wow, awesome! I still ordered a few extra keys; we don’t like to be without them, one for my toolbox and a couple in the car. Having most of my vehicles in my garage using the same wheel key is fantastically convenient for routine maintenance.
James Langan
Copyright James Langan/RoadTraveler All Rights Reserved
Cooper Tires’ Discoverer S/T MAXX has been my favorite commercial traction/hybrid tread design since its introduction. I have experimented with four sizes on four different truck platforms, and suggested them to many friends and acquaintances. Two of my four-wheel-drives are still running the S/T MAXX, including the built, 2006 V-8 Toyota 4Runner with 4.88:1 gears in this video.
After a whopping 7,436 miles before the first rotation, mostly road miles, these LT285/75R16 Discoverer S/T MAXX are wearing impressively well and evenly. From their original, generous depth of 18.5/32″, the fronts are down to 16/32″, and the rears 16.5/32″, 2.5 and 2/32″ respectively. That’s an average of 3,300 miles per 1/32″ of tread, and excellent wear from a fairly aggressive, moderate-void tire on a full-time four-wheel-drive car. They were rotated using the rearward cross pattern.
Tires have been a popular subject in magazines for decades, and forums continually see new threads seeking information and expertise. This is partly because they are expensive. They can also provide dramatic style and performance improvements and are an easy upgrade. With so much talk, it is surprisingly difficult to get unbiased, detailed, and authoritative information.
Fuel economy is another perpetually popular topic. Since tire choice affects mpg, or so we have always believed, the subjects are intrinsically linked. Some folks don’t care about mpg, but many care a lot. Except for the purchase of a new(er) truck or major repairs, fuel is our biggest operational expense.
What if it was possible to improve your highway mpg by 5 or 10%? Not a possible increase from the latest magic program pushed by a snake-oil salesman, but simply by choosing a different tread design? An improvement that could be measured and verified, repeatedly, with real world testing, not just theory or laboratory results that are difficult, if not impossible, to replicate.
What Affects MPG?
In the enthusiast truck world it is commonly accepted that bigger rubber reduces miles-per-gallon. Maybe, but bigger is not specific, sometimes it means wider, taller, or both. Taller tires will increase the overall final-drive-ratio, which can help or hurt efficiency depending on the platform and usage.
Previous tests with my 3.42:1-geared, 2014 Ram/Cummins 2500 used for this article indicate that taller meats up to 35” helped economy, or at least hurt mpg less than one might expect when unloaded. Tradeoffs include less torque and slower acceleration from higher final-gearing, though current generation trucks make plenty of torque and horsepower for most reasonable loads. My sense is that stepping-up to 37s would require lower differential gears for optimal performance.
When folks upgrade their tires, particularly on a four-wheel-drive, they often switch to a higher-void pattern; sometimes the more aggressive tread is chosen simply for looks. Even if we don’t mind the road noise or faster wear of an aggressive pattern, how much fuel does looking cool consume if one rarely or never drives off-road? With multiple, simultaneous changes, it’s impossible to say what caused a reduction in fuel economy. Instead of belaboring what modifications can do to our trucks, or what affects what, I’ll briefly quote myself, “Modifications lead to modifications.”
Controlling Variables With Cooper Discoverer Tires
With generous support from Cooper Tires, I performed a series of real-world tests to document how tread design (or pattern) or tread width impacts fuel economy. I invested a substantial amount of time and money to prove or disprove commonly accepted hearsay and to produce solid data I could not find anywhere. The pattern design tests are complete, and my procedures are detailed below together with the results in Table Two. The width results are concerning, or at least surprising, and additional work may be necessary to become comfortable with the facts.
The primary variable to be controlled for the design test was the size, but weights, odometer and speedometer error, wind, and temperatures were also logged. The bullet list below offers details.
Weather forecasts were monitored until several similar days were on the horizon. Because wind is common in Nevada, and typically increases with the afternoon temperatures, just one test was performed each morning, avoiding the higher winds and heat that would influence outcomes if I conducted multiple runs each day.
Three used sets of the same 29.8-pound, forged-aluminum (WBJ) Ram Bighorn 18” wheels were purchased from Craigslist, allowing all tires to remain mounted and balanced in case a test needed repeating.
Odometer error was measured for every design using mile-markers (MM) and GPS, as different treads in a certain size are not dimensionally identical. A single, constant-GPS distance was used for all mpg calculations. Road speed was monitored with GPS and corrected speedometer measurements.
To reduce the possibly of substantial inaccuracies during fueling, and to increase the validity of the data, the roundtrip route distance was 222.7-miles, over mostly level freeway.
Refueling was done at a particular pump, on the slowest fill rate to prevent foaming, and never topped-off. The freeway onramp is just one mile and three stoplights from the filling station.
Appropriate, not maximum, pressures were used for the modified but unloaded truck- 8,900-pound GVW.
The tailgate was up and the A/C was on.
Cruise control was used and only adjusted or turned-off briefly when absolutely necessary, and notes were logged regarding any irregularities. If an accident, construction, or other mishap would have caused stopping or a substantial speed adjustment for an extended distance, I would have aborted and repeated the test.
All-Terrain, Commercial Traction, Or Mud-Terrain?
When enthusiasts upgrade their rubber it’s common for choices to fit into one of three categories; all-terrain, commercial traction (hybrid), or mud-terrain. I chose the LT295/70R18E size, which is approximately 34” tall and 12” wide, with an impressive 4,080 pound capacity at 80 psi. Cooper offers three of their popular, yet distinctly different Discoverer patterns in this size: the Discoverer A/T3, Discoverer S/T MAXX, and Discoverer STT PRO.
Readers should remember than although every effort was made to limit variables, these were real-world tests using off-the-shelf products; some differences naturally exist. One easily overlooked fact is that tire compounds are proprietary, and each has its own special cocktail. Tread depth, and sidewall and tread plies also vary depending on the terrain and audience targeted. So the differences affecting performance and mpg are not just the visible patterns, but they include the compounds and the overall construction of each tire.
Discoverer 295/70R18E Measurements
The differences between tires of a particular size are often small, though one should be careful when comparing those from different manufacturers and/or a vastly different pattern. Over the past decade I’ve evaluated several sets of Cooper-branded and Cooper-manufactured tires, and my measured values have repeatedly matched the published specifications. Occasional, slight variations appear to be from measuring tools, mounting on narrower rims, etc. Manufactures know precisely what they are producing; they want to be as accurate as possible. Careful measurements were made of each Cooper design, and the details are in Table One.
Reading forums leads me to believe that some consumers don’t measure accurately, and/or expect the on-vehicle dimensions to be identical as the wheel-mounted, off-vehicle measurements; these folks cry foul when they are not. That is silly, as the weight of the vehicle, psi, and wheel width all affect the on-vehicle stature, and this is something the manufactures have no control over.
If you read carefully, and do some math, you may notice that the measured weight of a solo tire, plus the 29.8-pound wheel, does not match the mounted data, there are a few extra pounds in the sums. I’ve seen this many times before, as measuring bare wheels is difficult, and generally I must hold them against my chest and subtract my body weight. The figures listed in table one are what my shop scale, a good bathroom scale, indicated, plenty accurate for weighing heavy auto parts. Emphasis should be placed on the mounted weights, as nobody drives on wheels without tires. The few pound difference between these designs is negligible on a heavy-duty truck with prodigious torque and weighing nearly 9,000 pounds.
Table One, 295/70R18 Measurements
Cooper Discoverer 295/70R18
A/T 3
S/T MAXX
STT PRO
Weight (pounds)
60.2
66.4
68.8
Weight mounted (pounds)
92.0
97.4
99.8
Height unmounted
33 11/16”
33 13/16”
34”
Height mounted @60
34 4/16”
34 5/16”
34 5/16”
Tread width
9 7/16”
9 10/16”
10 3/16”
Tread depth
17/32”
18.5/32”
21/32”
Table Two, Tread Affecting MPG Test Data
Tread Matters MPG 295/70R18
A/T3
S/T MAXX
STT PRO
Test GVW (pounds)
8,900
8,900
8,900
Tire PSI F/R
60/40
60/40
60/40
Date
9-28-16
9-27-16
9-29-16
Time
0832–1202
0859–1230
0837–1208
Temperatures F
54-59-72-70-76-72
52-58-67-73-75-78
58-60-56-69-79-76
Wind/Gusts
1/2-5/5-2/5-4/4-1/2
4/4-2/3-0/0-1/2-0/0
0/0-3/4-5/6-3/8-0/0
Odometer
27,241–27,459
26,950–27,168
27,503–27,721
Trip Odometer
217.6
217.7
217.5
Odo error % MM & GPS
2.24/2.34
2.17/2.29
2.28/2.39
GPS (miles)
222.7
222.7
222.7
MPH indicated
64
64
64
MPH GPS
65.0–65.5
65.0–65.5
65.0–65.5
RPM Tach/Edge Insight
1,700/1,677
1,700/1,680
1,700/1,677
Fuel used (gallons)
10.380
11.033
11.533
ECM indicated MPG
23.2
22.4
21.0
MPG calculated
21.45
20.18
19.30
Tread Results Commentary
Choosing the Cooper S/T MAXX over the STT PRO mudder offers a 4.6% bump in fuel economy. Running the A/T3 instead of the S/T MAXX delivered a 6.3% increase. The leap from the STT PRO up to the A/T3 is 11.1%. Wow!
It’s impressive that a modified, heavy-duty, 4WD pickup with prodigious capabilities, weighing 8,900 pounds empty, with 34” x 12” tires mounted, can still reach or exceed 20 mpg during highway travel. Obviously most driving involves at least a few and stops and starts, but these repeatable tests demonstrate what is possible if speed and idling are minimized. If I picked the Discoverer A/T3, it appears that long distance highway runs, even with a couple pit stops, could top 20 mpg.
If one needs the extra grip offered by the STT PRO or S/T MAXX, choosing the A/T3 all-terrain might not be an acceptable tradeoff. Yet, if one is so inclined and has the space, these numbers seem to reinforce the practice of having two sets of tires and wheels. Whether they are all-terrains and mudders for your truck, or highway and winter rubber for your car, strong arguments can be made about picking the right tool for the job. We don’t wear flip-flops to go mountain climbing, and our clodhoppers are out of place in a gymnasium.
Does Width Matter?
The initial primary platform for measuring how tread width affects mpg was my modified, heavy, and low-geared ‘06 V8 4Runner, because I already had one of two desirable sizes. One might think the results would be relevant for most light-truck platforms. The conditions and procedures were the same as those for the different tread patterns.
I used Cooper’s S/T MAXX in 255/80R17, and 285/75R16, both 33” tall, but the 285s are substantially wider. The 255s are about 10” wide and the 285s about 11.5”; conventional wisdom says the 285s would consume about 1–2 mpg. Without creating another table, the short story is that theses tests delivered ambiguous results, there was very little difference. I was shocked! Followup runs might indicate these results were a fluke, but there were no obviously problems or procedure inconsistencies. The narrower 255s delivered 18.34 mpg, and the 285s 18.22 mpg.
Ram Width Comparison
Two sets of tires and wheels for my ‘14 Ram partially met the width criteria, meaning they were very similar height with the identical tread pattern, yet the width difference was small. I had them, so test I did, using the same parameters, during the same week, weather conditions, etc.
One set were the 295/70R18 S/T MAXX in table one. The other were 285/75R17 S/T MAXX mounted on 2015 (WFV) forged aluminum Power Wagon wheels, which weigh 28.6 pounds each. These 285mm-wide Discoverers are also 34” tall, but just fractionally shorter than the 295s. The mounted, measured tread width difference between these two sets is only about 3/8”.
The seventeens were evaluated at the end of six consecutive days of testing, and the weather started to change, with 22 mph winds near the end of this last trip. This was noteworthy, but I’d argue that there was not enough wind during most the run to impact the outcome. The data appear to support that opinion. For the slight difference in width, the results appear appropriate. There simply was not enough difference to influence economy, 20.18 vs. 20.22 mpg. I call that a draw.
Table Three, 285/75R17 Measurements
Cooper Discoverer 285/75R17
S/T MAXX
Weight
64
Weight mounted lb.
93.4
Height unmounted
33 11/16”
Height mounted @60
34”
Tread width
9 1/4”
Tread depth
18.5/32”
Table Four, Ram Width Matters 285/75R17
Width Matters MPG
S/T MAXX 285/75R17
Test GVW lb.
8,900
Tire PSI F/R
60/40
Date
9-30-16
Time
0759–1130
Temperatures F
55-59-69-71-73
Wind/Gusts
0/0-3/4-5/5-5/14-22/22
Odometer
27,780–28,000
Trip Odometer
219.0
Odo error % MM & GPS
1.57/1.68
GPS miles
222.7
MPH indicated
64
MPH GPS
65.2–65.7
RPM Tach/Edge Insight
1,700/1,690
Fuel gallons used
11.011
ECM indicated MPG
20.9
MPG calculated
20.22
The Ram results were not a big surprise. The lack of separation between the 4Runner’s width test mpg numbers, and to a lessor extent the Ram’s, have me questioning how much tread width alone impacts fuel economy. Much taller tires, with the corresponding overall gearing changes, combined with more aggressive tread patterns may be the main story behind fuel economy losses when fitting aftermarket rubber. Sometimes testing answers questions.
James Langan
Copyright James Langan/RoadTraveler/Turbo Diesel Register. All Rights Reserved.
A version of this article was also published in the Turbo Diesel Register magazine.